JP2993393B2 - Faulty subscriber circuit switching device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a faulty subscriber for coping with a fault in a subscriber circuit provided in a subscriber accommodating device or an exchange as an interface circuit with a subscriber line to which a communication device such as a telephone is connected. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit switching device, and more particularly to a faulty subscriber circuit switching device for detecting a fault occurring in a subscriber circuit and switching a subscriber line connected to the faulty subscriber circuit to a subscriber circuit having no fault.

[0002]

2. Description of the Related Art In a subscriber accommodating apparatus or an exchange which accommodates a large number of subscriber lines, a subscriber circuit is provided as a circuit for interfacing with the subscriber lines. The subscriber circuit has a function of setting a call and controlling outgoing / incoming calls and is prepared for each subscriber line. When a failure occurs in a subscriber circuit, communication cannot be performed through the subscriber line connected to the failure. For this reason, it has been performed to detect that a failure has occurred in a subscriber circuit, and to switch a subscriber line connected to the failed subscriber circuit to another subscriber circuit.

Japanese Unexamined Patent Publication No. 2-90767 discloses a faulty subscriber circuit switching device which prepares a spare subscriber circuit in advance and switches to the spare subscriber circuit when a failure occurs in the working subscriber circuit. It has been disclosed. Also, Japanese Patent Application Laid-Open No. 4-1
Japanese Patent Application Laid-Open No. 50133 discloses a faulty subscriber circuit switching device that constantly monitors whether or not a fault has occurred in a subscriber circuit, regardless of the presence or absence of communication, and switches the faulty subscriber circuit to a spare subscriber circuit. Have been.

As described above, in addition to a failed subscriber circuit switching device which prepares a spare subscriber circuit for switching when a failure occurs, an idle subscriber circuit is detected from the active subscriber circuits. There is a faulty subscriber circuit switching device that uses this in place of a faulty subscriber circuit. In this apparatus, when a failure occurs, an empty subscriber circuit is searched. Since the subscriber line is not always in a communication state, a spare subscriber circuit is not required by using an empty subscriber line, and the apparatus is simplified.

[0005]

Problems to be Solved by the Invention
In the faulty subscriber circuit switching device disclosed in Japanese Unexamined Patent Application Publication No. 4-150133 or JP-A-4-150133, when a fault occurs in the subscriber's circuit, it is switched to a spare subscriber's circuit. For this reason, there is a problem that it is not possible to cope with a case where a failure occurs in more subscriber circuits than the spare subscriber circuits prepared in advance. Further, when the spare subscriber circuit breaks down, there is a problem that communication is interrupted.

In a failed subscriber switching apparatus for switching a subscriber line connected to a failed subscriber circuit to a vacant subscriber circuit for connection, only a number corresponding to the vacant subscriber circuit is provided. It can respond to a failure. Further, when a failure occurs in the subscriber circuit to be switched to, the failure can be switched to another unused subscriber circuit. However, if access occurs from the subscriber line originally connected to the subscriber circuit after the switching, there is a problem that access from the original subscriber line cannot be dealt with.

An object of the present invention is to provide a faulty subscriber capable of coping with an access from a subscriber line originally connected to an idle subscriber circuit used in place of a failed subscriber circuit. Circuit switching device.

[0008]

The [Summary of invention of claim 1, wherein a plurality of subscriber circuits for inputting and outputting signals to and from the subscriber line connected to (i) one-to-one, (b) Failure detection means for detecting that a failure has occurred in these subscriber circuits; (c) vacant subscriber circuit detection means for detecting a vacant subscriber circuit that is not accessed from the subscriber line;
A first switching means for connecting switches the subscriber line connected with a subscriber circuit the failed subscriber circuit of idle when the occurrence of the failure has been detected by the (d) failure detection means, ( E) By the first switching connection means
Switched connection as a substitute for a failed subscriber circuit
An access detecting means for detecting the presence or absence of the access from the subscriber line the subscriber line that was originally connected to the subscriber circuit became switching destination that is, (f) a subscriber circuit of the switching destination by the access detecting means And a second switching connection means for switching and connecting the subscriber line to an empty subscriber circuit when it is detected that access has been made from the subscriber line originally connected to the faulty subscriber circuit. Let me.

That is, according to the first aspect of the present invention, the subscriber line connected to the failed subscriber circuit is switched to an unused subscriber circuit. In addition, this
Is not available as a substitute for the failed subscriber's circuit.
When an access occurs from the subscriber line originally connected to the subscriber circuit to be switched to, the subscriber line is switched to an empty subscriber circuit and connected. Thereby, even if access occurs after switching from the subscriber line originally connected to the subscriber circuit used in place of the failed subscriber circuit, communication through this subscriber line can be secured. .

[0010] In the present invention of claim 2 wherein, (a) a plurality of subscriber circuits for inputting and outputting signals to and from the one-to-one connected subscriber line, (ii) failure to these subscriber circuits Failure detecting means for detecting that a failure has occurred; and (c) a first vacant subscription for detecting a vacant subscriber circuit not accessed from the subscriber line when the failure detection means detects the occurrence of a failure. (D) the first circuit
(E) first switching connection means for switching and connecting the subscriber line connected to the failed subscriber circuit to the vacant subscriber circuit detected by the vacant subscriber circuit detection means; After the subscriber line connected to the failed subscriber circuit is switched to the vacant subscriber circuit by the first switching connection means, the failure has occurred .
An access detecting means for detecting the presence or absence of access from the subscriber line that was originally connected to the subscriber circuit became switching destination subscriber line connected to the subscriber circuit,
(F) A second vacant subscriber circuit detection for detecting a vacant subscriber circuit when it is detected by the access detection means that access has been made from the subscriber line originally connected to the switching destination subscriber circuit. Means and (g) this second
And a second switch connecting means for switching and connecting a subscriber line detected to be accessed by the access detecting means to the vacant subscriber circuit detected by the vacant subscriber circuit detecting means. The equipment is equipped.

That is, according to the second aspect of the present invention, after the subscriber circuit is switched, the number of failed subscribers
The presence / absence of access from the subscriber line originally connected to the subscriber circuit to which the subscriber line connected to the line is switched is detected. Since the presence / absence of access is detected only after switching, the processing load for detection can be reduced.

According to the third aspect of the present invention, the vacant subscriber circuit detecting means includes a subscriber access detecting means for detecting the presence or absence of an access from the subscriber line and a switching destination for storing the switched subscriber circuit. Subscriber circuit storage means,
A subscriber circuit connected to an inaccessible subscriber line and not switched to is detected as an idle subscriber circuit.

That is, according to the third aspect of the present invention, the subscriber circuit of the switching destination is stored, and the subscriber circuit that has not been accessed from the subscriber line and is not the switching destination is set as an empty subscriber circuit. Detected. The presence or absence of access from the subscriber line can be recognized, for example, by determining the on-hook state and the off-hook state of the communication device connected to the subscriber line, so that an empty subscriber circuit can be easily detected.

According to the fourth aspect of the present invention, the first and the second
Vacant subscriber circuit detecting means comprises subscriber access detecting means for detecting the presence / absence of access from the subscriber line, and switching destination subscriber circuit storing means for storing the switched subscriber circuit. A subscriber circuit connected to an inaccessible subscriber line and not switched to is detected as an idle subscriber circuit.

That is, according to the fourth aspect of the present invention, the subscriber circuit of the switching destination is stored, and the subscriber circuit that has not been accessed from the subscriber line and is not the switching destination is set as an empty subscriber circuit. Detected. The presence or absence of access from the subscriber line can be recognized, for example, by determining the on-hook state and the off-hook state of the communication device connected to the subscriber line, so that an empty subscriber circuit can be easily detected.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to embodiments.

FIG. 1 shows an outline of the configuration of a failed subscriber's circuit switching apparatus according to an embodiment of the present invention.
The subscribers 11 _{1 to} 11 _N correspond to the subscriber lines 12 ₁ to _1, respectively.
It is connected to the subscriber network 13 through 2 _N. Subscriber network 13 includes a relief access detection circuit 14, the subscriber's circuit 1 as input and the circuit of the subscriber line 12 ₁ to 12 _N
5 _{1-15 N} and the subscriber line 12 ₁ to 12 _N of the destination to become a subscriber circuit 15 ₁ to 15 switches the _N switching circuit 1
6 is comprised. Relief access detection circuit 14
Is a circuit which detects whether the access from the subscriber line 12 ₁ to 12 _N. The presence or absence of access is detected by determining whether the subscriber connected to the subscriber line is in the on-hook state or the off-hook state. SLIC 15 ₁ to 15 _N when the failure respectively occurs, and outputs a predetermined failure information signal.

The subscriber circuit 15 ₁ to 15 _N are connected to the subscriber control device 17. The subscriber control device 17 is a circuit that outputs to the switching circuit 16 a switching instruction for connecting a subscriber line connected to the failed subscriber circuit to another subscriber circuit. The time-division switch 18 is a circuit for time-division multiplexing a signal transmitted and received through each subscriber line, or for separating a time-division multiplexed signal. The central control processing device 19 is a circuit device that performs a central function of various controls in the faulty subscriber's circuit switching device.

The subscriber control device 17 includes a subscriber circuit 15 ₁
It has a function of sending a failure information signal output from １５15 _N to the central control processor 19. Central control processor 19
Has a CPU (Central Processing Unit) (not shown) that plays a central role in various controls, and a ROM (Read Only Memory) (not shown) that stores programs and various fixed data. Further, a RAM (random access memory) (not shown) for storing data temporarily required during execution of the program is provided. The central control processor 19 is connected to the rescue access detection circuit 14 and recognizes whether or not each subscriber has accessed. Also,
The failure information signal sent from the subscriber control device 17 allows the presence or absence of a failure in the subscriber circuit to be identified.

FIG. 2 shows an operation flow when the failed subscriber circuit switching device shown in FIG. 1 switches a failed subscriber circuit. The central control processing device 19
Each of the subscriber circuits 15 ₁ to 15 through the subscriber controller 17
_It monitors whether a failure information signal arrives from _N (step S101). When the failure information signal arrives (step S101; Y), the rescue access detection circuit 1
An empty subscriber circuit is searched from the detection state of No. 4 (step S102). The central control processor 19 outputs to the subscriber controller 17 an instruction to connect the subscriber line connected to the failed subscriber circuit to one of the idle subscriber circuits. The subscriber control device 17 sends this instruction to the switching circuit 16. Thereby, the switching circuit 16
Switches the subscriber line connected to the failed subscriber circuit to the vacant subscriber circuit selected by the central control processing unit 19 (step S10).
3).

Thereafter, the central control processor 19 reads the detection state of the rescue access detection circuit 14 (step S104). Based on this, it is checked whether or not an access from the subscriber line originally connected to the subscriber circuit to which the subscriber line has been switched has arrived as a substitute for the failed subscriber circuit (step S105). While no access has arrived from the subscriber line originally connected (step S105; N), the rescue access detection circuit 1
The detection state of No. 4 is checked. When the access has arrived (step S105; Y), an empty subscriber circuit is searched based on the detection state of the rescue access detection circuit 14 (step S106). As a substitute for the failed subscriber circuit, the subscriber line originally connected to the subscriber circuit to which the subscriber line is switched is switched to the vacant subscriber circuit found by the search (step S10).
7). The central control processing device 19 issues a switching instruction to the subscriber control device 17, and the switching circuit 16 is controlled by the subscriber control device 17.

The central control processor 19 stores the subscriber circuit in which a fault has occurred and the subscriber circuit to which the subscriber has switched. Then, the subscriber circuit which was initially associated with the subscriber line for which no access was detected by the rescue access detection circuit 14 and which has not been switched to is replaced with an unused subscriber circuit. Circuit is detected as a user circuit. By directly inputting the access state of the subscriber line to the central control processing unit 19 from the output of the rescue access detection circuit 14, the subscriber information including the scan information and the failure information from the subscriber circuit is obtained. , Subscriber control device 17 and time division switch 18
There is no need to search for a free subscriber via. For this reason,
It is possible to reduce the burden of searching for a free subscriber line and a free subscriber circuit of the central control processing device 19 and switching connection processing.

FIG. 3 shows an example of a state where the subscriber circuit is switched by the switching circuit. 1 are given the same reference numerals. In the initial state, the switching circuit 16 is assumed to be connected to the subscriber line 12 ₁ to 12 subscript of _N in the figure equal subscriber circuits 15 ₁ to 15 _N. Further, the mark x in the figure indicates that the connection between the subscriber line and the subscriber circuit has been disconnected at this point. First, the subscriber circuit 15 ₁ fails. A failure information signal indicating that a failure has occurred is sent to the central control processor 19 through the subscriber controller 17. In response to this, the central control processing unit 19 checks the detection state of the rescue access detection circuit 14 and checks an empty subscriber line. Here, it is assumed that 12 _N is empty.
At this time the central control processor 19 outputs an instruction for connecting switching the subscriber lines 12 ₁ to the subscriber circuit 15 _N to the subscriber control device 17.

A switching instruction is input to the switching circuit 16 through the subscriber control device 17. Thus subscriber line 12 _1, connected to the subscriber circuit 15 ₁ at a point × mark 31 is cut off, is connected is switched to the subscriber circuit 15 _1.

Next, it is assumed that also the subscriber line interface circuit 15 ₂ and the subscriber circuit 15 ₃ has failed. Central control processor 19 based on the detected state of the relief access detection circuit 14, and interrupt the connection between the subscriber circuit 15 ₂ subscriber line 12 ₂ at a point × mark 32 was idle at that time connection is made switchable to the subscriber circuit 15 ₄ corresponding to the subscriber 12 _4. Similarly, the subscriber line 12 ₃ is disconnected from the subscriber circuit 15 ₃ at the point of the mark 33, and the subscriber circuit 15 corresponding to the subscriber 12 ₅ which was idle at the time of the failure. _Five
The switching connection is made. In this way, even if a failure occurs in two or more subscriber circuits, if there is a free subscriber circuit, it can be dealt with, and communication can be ensured.

After switching the subscriber circuit to which the subscriber line is connected due to a failure, the central control processing unit 19
The detection state of the rescue access detection circuit 14 is constantly monitored. As a result, it is possible to immediately detect that access has occurred from the subscriber line initially connected to the subscriber circuit to which the switching has been made. For example, the subscriber circuit 15 ₄ to which the subscriber line 12 ₂ is switched
An access arrives from the subscriber line 12 ₄ corresponding to the. At this time, the central control processing unit 19 searches for a vacant subscriber circuit based on the detection state of the rescue access detection circuit 14. Here, when the subscriber line 12 ₆ is idle, the subscriber line 12 ₄ is connected to the subscriber circuit 15 ₄ at a point × mark 34 is cut off, is connected is switched to a subscriber circuit 15 _6. Similarly when the access from the subscriber line 12 ₅ occurs, subscriber circuit 15 at a point × mark 35
Connection to ₅ is cut off, is connected is switched to a subscriber circuit 15 _7.

As described above, even if access occurs from the subscriber line originally connected to the subscriber circuit to which the subscriber line is switched as a substitute for the failed subscriber circuit,
The occurrence of an access can be detected by constantly monitoring the rescue access detection circuit. Further, since the subscriber line in which the access has occurred is switched to the unused subscriber circuit, the communication can be ensured even on this subscriber line. That is, the central control processing device 19 can control the time-division switch 18 to perform call processing control via the idle subscriber circuit. For example, when communication is performed between the subscriber 11 _1, time division switch 1
_{No. 8} communicates with the subscriber 111 through the time slot allocated to the subscriber circuit _15N .

[0028]

As described above, according to the first aspect of the present invention, the subscriber line connected to the failed subscriber circuit is switched to an idle subscriber circuit. As a result, there is no need to provide a spare subscriber circuit, the configuration of the apparatus can be simplified, and the occurrence of a failure corresponding to the number of idle subscriber circuits can be dealt with. In addition, the faulty subscriber circuit
When an access occurs from the subscriber line originally connected to the switching destination subscriber circuit which is idle as a substitute , this subscriber line is switched and connected to an empty subscriber circuit. As a result, even if an access occurs after switching from the subscriber line originally connected to the subscriber circuit used in place of the failed subscriber circuit, call processing for this subscriber line is hindered. Communication can be performed without any need.

According to the second aspect of the present invention, after the subscriber circuit is switched, the number of failed subscribers
The presence / absence of access from the subscriber line originally connected to the subscriber circuit to which the subscriber line connected to the line is switched is detected. Only after such switching, the presence or absence of access from the subscriber line is detected.
The burden of processing for detection can be reduced.

Further, according to the third or fourth aspect of the present invention, the subscriber circuit to be switched to is stored, and based on this and the presence or absence of access from the subscriber line, the subscriber circuit in an idle state is stored. Detected. The presence or absence of access from the subscriber line can be detected by, for example, a scan signal indicating the on-hook state and the off-hook state of the communication device connected to the subscriber line. Further, the presence or absence of access can be detected at the preceding stage without passing through the switching connection means or the subscriber circuit, so that the detection of an empty subscriber circuit can be easily performed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an outline of a configuration of a failed subscriber's circuit switching device according to an embodiment of the present invention.

FIG. 2 is a flowchart showing an operation flow when the failed subscriber circuit switching device shown in FIG. 1 switches a failed subscriber circuit.

FIG. 3 is an explanatory diagram showing an example of a state where a subscriber circuit is switched by a switching circuit.

[Explanation of symbols]

 Reference Signs List 11 subscriber 12 subscriber line 13 subscriber network 14 rescue access detection circuit 15 subscriber circuit 16 switching circuit 17 subscriber control device 18 time division switch 19 central control processing device

Continuation of the front page (58) Field surveyed (Int.Cl. ⁶ , DB name) H04M 3/00 H04M 3/08-3/40 H04M 7/00-7/16 H04Q 1/20-1/26 H04Q 3 / 42

Claims (4)

(57) [Claims] 1. A plurality of subscriber circuits for inputting / outputting a signal to / from a subscriber line connected one-to-one, failure detection means for detecting that a failure has occurred in these subscriber circuits, A vacant subscriber circuit detecting means for detecting a vacant subscriber circuit that is not accessed from the subscriber line; and a failure occurs in the vacant subscriber circuit when the occurrence of a failure is detected by the failure detecting means. First switching connection means for switching and connecting the subscriber line connected to the subscriber circuit, and the faulty connection caused by the first switching connection means.
Access detecting means for detecting the presence or absence of access from the subscriber line originally connected to the subscriber circuit to which the switched subscriber circuit is switched as a substitute for the subscriber circuit; and switching by the access detecting means Second switching connection means for switching and connecting the subscriber's line to an idle subscriber's circuit when it is detected that access has been made from the subscriber's line originally connected to the previous subscriber's circuit. A faulty subscriber circuit switching device, characterized in that: 2. A plurality of subscriber circuits for inputting / outputting signals to / from a subscriber line connected one-to-one, a failure detecting means for detecting that a failure has occurred in these subscriber circuits, First vacant subscriber circuit detecting means for detecting a vacant subscriber circuit which is not accessed from the subscriber line when a failure is detected by the failure detecting means; and detecting the first vacant subscriber circuit. First switching connection means for switching and connecting the subscriber line connected to the failed subscriber circuit to the idle subscriber circuit detected by the means; and occurrence of a failure by the first switching connection means. The subscriber circuit in which the fault has occurred since the subscriber circuit connected to the failed subscriber circuit is switched to an empty subscriber circuit and then connected.
An access detecting means for detecting the presence or absence of access from the subscriber line that was originally connected to the subscriber circuit became switching destination subscriber line connected to a subscriber circuit of the switching destination by the access detecting means A second vacant subscriber circuit detecting means for detecting a vacant subscriber circuit when it is detected that access has been made from a subscriber line originally connected to Second switching connection means for switching and connecting a subscriber line detected to be accessed by the access detection means to the detected unused subscriber circuit. apparatus. 3. The vacant subscriber circuit detecting means includes a subscriber access detecting means for detecting the presence / absence of access from a subscriber line and a switching destination subscriber circuit storing means for storing a switching destination subscriber circuit. 2. The faulty subscriber circuit switching as claimed in claim 1, wherein a subscriber circuit connected to a subscriber line without access and not switched to is detected as an idle subscriber circuit. apparatus. 4. The first and second vacant subscriber circuit detecting means includes a subscriber access detecting means for detecting presence / absence of access from a subscriber line, and a switch for storing a subscriber circuit to which switching is performed. 3. A subscriber circuit storing means for detecting a subscriber circuit connected to an inaccessible subscriber line and not switched to as a free subscriber circuit. A faulty subscriber circuit switching device as described.